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OLS 100K

OLS 100K

Excimer laser

Narrow linewidth
Central wavelength tuning within ±40 pm

OptoDP DUAL

OptoDP DUAL

Dual head DPSS laser for PIV

Designed for illumination purposes on Particle Image Velocimetry (PIV), OptoDP DUAL series laser comprises two high efficiency DPSS side pumped cavities with intracavity frequency doubling. Cavities are mounted in compact monolithic housing and the laser beams are combined on the output by polarizers.

700C/700CW

700C/700CW

Power supply

For capacitor charging in laser systems and powerful pulse high-voltage devices

OptoDP

OptoDP

Pulsed DPSS lasers

Nd.YAG and Nd:YLF lasers for material processing, Ti:Sa pumping and research applications

OptoDP SM

OptoDP SM

Single mode pulsed lasers with perfect beam quality

Unique line of lasers for applications demanding high beam focusing capabilities. Single oscillator or oscillator-amplifier models are available.

InfraLight SP

InfraLight SP

CO2 laser

Short pulse duration
High pulse energy
High amplification gain
Wavelength tuning
Wide range of working pressure (200 – 1000 mbars)
Computer control

InfraLight 200

InfraLight 200

CO2 laser

High pulse energy
High amplification gain
Wavelength tuning
Wide range of working pressure ( 200 – 1000 mbars)
Computer control

InfraLight 100

InfraLight 100

CO2 laser

Extended gas lifetime
High repetition rate
Single unit
Computer control

Femto Visum

Femto Visum

Laser system

Femtosecond laser system Femto Visum has extended set of laser treatment procedures for vision correction and keratoplasty. Small pulse energy, high repetition rate fibre base femtosecond laser, high precision quartz patient interface and high speed laser scanning system to ensure safe treatment processes and high quality results.

Microscan Visum

Microscan Visum

Laser system

Laser system Microscan Visum is worldwide highest repetition rate excimer lasers with 1100 Hz. Treatment time is around 1 s per diopter. High speed tracking systems, wavefront and topography-guided ablation to ensure high efficiency, predictability and safety of vision correction.